well-goknown/vendor/github.com/gobwas/httphead/option.go

193 lines
4 KiB
Go

package httphead
import (
"bytes"
"sort"
)
// Option represents a header option.
type Option struct {
Name []byte
Parameters Parameters
}
// Size returns number of bytes need to be allocated for use in opt.Copy.
func (opt Option) Size() int {
return len(opt.Name) + opt.Parameters.bytes
}
// Copy copies all underlying []byte slices into p and returns new Option.
// Note that p must be at least of opt.Size() length.
func (opt Option) Copy(p []byte) Option {
n := copy(p, opt.Name)
opt.Name = p[:n]
opt.Parameters, p = opt.Parameters.Copy(p[n:])
return opt
}
// Clone is a shorthand for making slice of opt.Size() sequenced with Copy()
// call.
func (opt Option) Clone() Option {
return opt.Copy(make([]byte, opt.Size()))
}
// String represents option as a string.
func (opt Option) String() string {
return "{" + string(opt.Name) + " " + opt.Parameters.String() + "}"
}
// NewOption creates named option with given parameters.
func NewOption(name string, params map[string]string) Option {
p := Parameters{}
for k, v := range params {
p.Set([]byte(k), []byte(v))
}
return Option{
Name: []byte(name),
Parameters: p,
}
}
// Equal reports whether option is equal to b.
func (opt Option) Equal(b Option) bool {
if bytes.Equal(opt.Name, b.Name) {
return opt.Parameters.Equal(b.Parameters)
}
return false
}
// Parameters represents option's parameters.
type Parameters struct {
pos int
bytes int
arr [8]pair
dyn []pair
}
// Equal reports whether a equal to b.
func (p Parameters) Equal(b Parameters) bool {
switch {
case p.dyn == nil && b.dyn == nil:
case p.dyn != nil && b.dyn != nil:
default:
return false
}
ad, bd := p.data(), b.data()
if len(ad) != len(bd) {
return false
}
sort.Sort(pairs(ad))
sort.Sort(pairs(bd))
for i := 0; i < len(ad); i++ {
av, bv := ad[i], bd[i]
if !bytes.Equal(av.key, bv.key) || !bytes.Equal(av.value, bv.value) {
return false
}
}
return true
}
// Size returns number of bytes that needed to copy p.
func (p *Parameters) Size() int {
return p.bytes
}
// Copy copies all underlying []byte slices into dst and returns new
// Parameters.
// Note that dst must be at least of p.Size() length.
func (p *Parameters) Copy(dst []byte) (Parameters, []byte) {
ret := Parameters{
pos: p.pos,
bytes: p.bytes,
}
if p.dyn != nil {
ret.dyn = make([]pair, len(p.dyn))
for i, v := range p.dyn {
ret.dyn[i], dst = v.copy(dst)
}
} else {
for i, p := range p.arr {
ret.arr[i], dst = p.copy(dst)
}
}
return ret, dst
}
// Get returns value by key and flag about existence such value.
func (p *Parameters) Get(key string) (value []byte, ok bool) {
for _, v := range p.data() {
if string(v.key) == key {
return v.value, true
}
}
return nil, false
}
// Set sets value by key.
func (p *Parameters) Set(key, value []byte) {
p.bytes += len(key) + len(value)
if p.pos < len(p.arr) {
p.arr[p.pos] = pair{key, value}
p.pos++
return
}
if p.dyn == nil {
p.dyn = make([]pair, len(p.arr), len(p.arr)+1)
copy(p.dyn, p.arr[:])
}
p.dyn = append(p.dyn, pair{key, value})
}
// ForEach iterates over parameters key-value pairs and calls cb for each one.
func (p *Parameters) ForEach(cb func(k, v []byte) bool) {
for _, v := range p.data() {
if !cb(v.key, v.value) {
break
}
}
}
// String represents parameters as a string.
func (p *Parameters) String() (ret string) {
ret = "["
for i, v := range p.data() {
if i > 0 {
ret += " "
}
ret += string(v.key) + ":" + string(v.value)
}
return ret + "]"
}
func (p *Parameters) data() []pair {
if p.dyn != nil {
return p.dyn
}
return p.arr[:p.pos]
}
type pair struct {
key, value []byte
}
func (p pair) copy(dst []byte) (pair, []byte) {
n := copy(dst, p.key)
p.key = dst[:n]
m := n + copy(dst[n:], p.value)
p.value = dst[n:m]
dst = dst[m:]
return p, dst
}
type pairs []pair
func (p pairs) Len() int { return len(p) }
func (p pairs) Less(a, b int) bool { return bytes.Compare(p[a].key, p[b].key) == -1 }
func (p pairs) Swap(a, b int) { p[a], p[b] = p[b], p[a] }